Development of VOCs Monitoring Plan
|
|
- Silvester Carter
- 5 years ago
- Views:
Transcription
1 Development of VOCs Monitoring Plan Waroonphan Jaruphan Ambient Air Monitoring Section Air and Noise Quality Management Bureau Pollution Control Department Objective of VOCs monitoring program To study existing status of VOCs as hazardous air pollutants (HAPs( HAPs) Determination ambient VOCs level as annual average to assess health risk for setting up air quality standards for VOCs in Thailand
2 What is defined the program? I. Site selection II. Target Compounds III. IV. Schedule QA/QC I. Site Selection 1. Category of monitoring site Roadside (5 sites) Residential (5 sites) Industrial (13 sites) (Including gas station and fugitive sources)
3 2. Data used for site selection Roadside and Residential Number of Population in 50 districts in Bangkok area (2004) Car density in Bangkok area (2005) Availability of Meteorological data PCD Air quality monitoring data (conventional parameters e.g., NO 2, O 3, PM10 and air toxic) 2. Data for residential site selection Ten priority orders of number of populations per district in BKK (roadside and residential) Districts No. of populations (persons) 1. Bangkae 186, Bangken 177, Jatujuk 169, Jomthong 167, Saimai 161, Donmuang 157, Bangsue 154, Bangkapi 147, Dindang 147, Thonburi 139,573
4 2. Data for roadside site selection Ten priority orders of Car density (roadside) Roads Cars density (cars/hr) 1. Vipawadee 12, Radchadapisek 9, Asoke dindang 7, Pahonyotin 6, Dindang 6, Ramkhamhang 6, Rama 3 5, Pechaburi 5, Rachapreuk 5, Srinakarin 5, Criteria for site selection Available meteorological data Available ambient air quality data Security Avoid obstructions and ground dust Sampling height approx. 1.5 m above the ground Distance for roadside area : 10 m from the major road Distance for residential area: 1560 m from the major road
5 Roadside site selected s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) 1.Donmuang District Office S,W Donmuang (Met.Dep.) 2.Transportation Department Calm 3.Chokechai4 Police Chokechai4 (PCD) 4.Dindang station no oberved Dindang (PCD) 5.BanNhongBon School W, Residential site selected s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) 1.Bangkapisukum School Klonjun (PCD) 2.BordinDecha School Ramkhamheang (PCD) 3.WatSing School S,W Watsing (PCD) 4.Bangkok Naval Base No observed Bansomdet (PCD) 5.Prachanookoon School W,
6 City Background s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) Bangna No Observed Bangna (PCD)
7 2. Data used for site selection Industrial site 1. PCD monitoring data (conventional parameters) 2. Complain record related to smell, bad odor Initial inventory data 4. Potential source 5. Screening Survey (with portable GC) Industrial site (BKK & vicinity) s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) 1.Ladkrabung (Wattippawas school) Bangna(PCD) 2.Bangpoo North (Sriubon Village) Bangna(PCD) 3.Bangpoo South (Somboon House) S,W Bangna(PCD) 4.Jomthong S,W Watsing (PCD) 5.Ladprod 71 W, Chokechai4 (PCD) 6.Phaholyotin 50
8 ร ปภาพท North Industrial site (Mabtaput) s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) 1.Mabtaput Health Center Maptaput Health Center (PCD) 2.Bantaguan Sanitation Center Maptaput Health Center (PCD) 3.New Town S,W New Town (Maptaput Industrial Estrate) 4.Wat Mapchalood Mabchalood (Maptaput Industrial Estrate) 5.Wat Nongfab W, 6.Bannpong
9 ร ปท 1 PCDAmbient Air Monitoring site in MTP area 1= สถาน อนาม ยมาบตาพ ด 2= บ านตากวน 3= สถาน เม องใหม 4 = สถาน มาบชะล ด 5= ว ดหนองแฟป 6 = ช มชนบ านพลง Reference/ Background site s UTM Coordinate Dominant wind direction Nearest Meteorological X(WGS84) Y(WGS84) Khao Laem Dam No Observed Mobile
10 II. Target Compounds 44 compounds to be analyzed canistergcms system 1Freon12 13Acrylonitrile 25 t1,3dichloropropene 37 1,3,5Trimethylbenzene 2 Freon ,1Dichloroethane 26 1,1,2Trichloroethane 38 1,2,4Trimethylbenzene 3 Chloromethane 15 1,1Dichloroethene 27 Tet r achl or oet hene 39 mdichlorobenzene 4 Chloroethane 16 Chl oroform 28 1,2Dibromoethane 40 pdichlorobenzene 5 1, 3But adi ene 17 1,1,1Trichloroethane 29 Chlorobenzene 41 Benzyl chloride 6 Bromomethane 18 Carbon teterachloride 30 Ethylbenzene 42 odichlorobenzene 7Vinyl chloride 191,2Dichloroethane 31 mxylene 43 1,2,4Trichlorobenzene 8Freon11 20 Benzene 32 pxylene 44 Hexachlorobutadiene 9Freon Tr i chl or oet hene 33 oxylene 10 c1,2dichloroethene 22 1,2Dichloropropane 34 Styrene 11 3 Chloro1 propene 23 c1,3dichloropropene 35 1,1,2,2Tetrachloroethane 12 Di chl oromethane 24 Toluene 36 4Ethyltoluene Additional 3 Compounds 1.Formaldehyde 2. Acetaldehyde 3. Ethylene Oxide
11 Criteria for Target Compounds Current capacity of laboratory US EPA Method TO 14 US EPA Method TO 15 Availability of standard gas III. Schedule Frequency one a month Samping Duration 24 hours Randomized schedule for 12 months
12 IV. QA/QC Plan SOPs for Ambient Sampling & Laboratory Training and staff qualification system Canister cleaning and testing program Field Data sheet QA/QC sample (Duplicate, Blank) Standard Gas Inter laboratory cross check
13 Date Location: Name GPS (UTM unit) Name of collector Canister serial number Cleaning date Cleaning method name Result of leak check Passive sampler # Flow rate Time Pressure Duplicate sampling Weather Temperature Relative humidity Wind direction Wind speed Remarks Pressure Name of analytist Date of analysis Data file name pressure Digital camera shooting Date receiving canister Field Data sheet Year X: Number of times repeating evacuating and filling: Final pressure: Start of the test Start of sampling Cani. # Yes/ No Start of sampling Lowest Lowest Year Name of person who measures the pressure and dilutes Before dilution Year Name of person who check this record Date Address Y: Who cleaned End of the test Calculated based on pressure End of sampling Travel blank End of sampling Highest Highest Date After dilution Date Data sheet # Month Z: Elapsed time Cani. # Throughout sampling Average Average Month Dilution rate Month When you will see the data? Monitoring data will be compiled as data report. Content of the report will be presented in the seminar Then report will be available from PCD web site.
Target Compound Results Summary
Phone/ (86)88-4800 / (86)88-471 http://www.emsl.com to1lab@emsl.com Customer ID: EMSL0A K12312.D 28 cc 0 0/01/2017 K12327.D 21 cc 600 Target Compound Results Summary Propylene 11-07-1 42.08 ND.0 ND 8.6
More informationINNOVATIVE PRODUCTS, SUPERIOR SUPPORT. Presenter: Anne Jurek, Senior Applications Chemist, EST Analytical
INNOVATIVE PRODUCTS, SUPERIOR SUPPORT Presenter: Anne Jurek, Senior Applications Chemist,, pp, EST Analytical Air pollution is a growing problem due to the global economy and industrial development in
More informationEPA TO-17 Volatile Organic Compounds
EPA TO-17 Volatile Organic Compounds Method TO-17 is used to analyze samples for volatile organic compounds collected on multi-bed sorbent tubes, which are thermally desorbed and cryo-focused on the capillary
More informationThe following report includes the data for the above referenced project for sample(s) received on 5/15/2017 at Air Toxics Ltd.
5/26/2017 Ms. Anna Kelley Hamilton Co. Environmental Services 250 Wm. Howard Taft Cincinnati OH 45219 Project Name: Sun Coke Project #: Workorder #: 1705303 Dear Ms. Anna Kelley The following report includes
More informationSUMMARY REPORT OF AIR MONITORING FOR LEED CERTIFICATION PHASE 2 SWANSFIELD ELEMENTARY SCHOOL 5610 CEDAR LANE COLUMBIA, MD PREPARED FOR:
SUMMARY REPORT OF AIR MONITORING FOR LEED CERTIFICATION PHASE 2 SWANSFIELD ELEMENTARY SCHOOL 5610 CEDAR LANE COLUMBIA, MD 21044 PREPARED FOR: HOWARD COUNTY PUBLIC SCHOOL SYSTEM 10910 ROUTE 108 ELLICOTT
More informationApplication Note 116 Monitoring VOCs in Ambient Air Using Sorbent Tubes with Analysis by TD-GC/MS in Accordance with Chinese EPA Method HJ
Application Note Monitoring VOCs in Ambient Air Using Sorbent Tubes with Analysis by TD-GC/MS in Accordance with Chinese EPA Method HJ -3 Application Note Abstract This application note demonstrates the
More informationDetermination of Volatile Organic Compounds in Air
JSB is an authorised partner of Determination of Volatile Organic s in Air Anne Jurek #126 Introduction Air pollution is a growing problem due to the global economy and industrial development in many countries.
More informationApplication Note. Application Note 081 Innovative Cryogen-Free Ambient Air Monitoring in Compliance with US EPA Method TO-15. Abstract.
Application Note 8 Innovative Cryogen-Free Ambient Air Monitoring in Compliance with US EPA Method TO-5 Application Note Environmental, Canister, TO-5, Air Monitoring, Air Toxics Abstract This application
More informationR.E.A.C.T. Roxbury Environmental Action CoaliTion P.O. Box 244 Ledgewood, N.J Website:
R.E.A.C.T. Roxbury Environmental Action CoaliTion P.O. Box 244 Ledgewood, N.J. 07852 Website: www.reactnj.org Email: info@reactnj.org RE: Air Test Results R.E.A.C.T. has facilitated an ambient air test
More informationBIO-CHEM Laboratories, Inc. Work Order Sample Summary. CLIENT: CTRA Project: 6454 T Lab Order: A 6454 Aqueous 3/1/2013.
Date: 08-Mar-13 Work Order Sample Summary Lab Sample ID Client Sample ID Matrix Collection Date Date Received 1303004-01A 6454 Aqueous 3/1/2013 3/1/2013 Page 1 of 1 Date: 08-Mar-13 CASE NARRATIVE Samples
More informationIndoor Air Sampling and Forensic Analysis at Peter Cooper Village and Stuyvesant Town Properties October 2017
Indoor Air Sampling and Forensic Analysis at Peter Cooper Village and Stuyvesant Town Properties October 2017 Prepared by: Anchor QEA 90 Elwood Davis Rd, Suite 340 Liverpool, NY 13088 Prepared for: Consolidated
More information1. Introduction. 2. Sampling Activities
CH2M HILL Canada Limited 72 Victoria Street Suite 0 Kitchener, ON N2G 4Y9 O +519 579 3500 F +519 579 8986 www.ch2m.com Tara Tran, MCIP, RPP Policy Planner The Corporation of the City of Brantford 100 Wellington
More informationAnalysis of Volatile Organic Compounds Using USEPA Method 8260 and the 4760 Purge and Trap and the 4100 Autosampler
Analysis of Volatile Organic Compounds Using USEPA Method 8260 and the 4760 Purge and Trap and the Introduction Although analysis of VOCs by purge and trap is considered a mature technique, advances in
More informationImproved Volatiles Analysis Using Static Headspace, the Agilent 5977B GC/MSD, and a High-efficiency Source
Improved Volatiles Analysis Using Static Headspace, the Agilent 5977B GC/MSD, and a High-efficiency Source Application Note Environmental Authors Peter Gautschi and Harry Prest Senior Application Scientist
More informationBIO-CHEM Laboratories, Inc. Work Order Sample Summary. CLIENT: Cascade Thornapple River Assoc. Project: Water Analysis Lab Order:
Date: 31-Jul-18 Work Order Sample Summary Lab Sample ID Client Sample ID Matrix Collection Date Date Received 1807123-01A Dam & Burger Water 7/25/2018 7/25/2018 1807123-02A 48th & RR Water 7/25/2018 7/25/2018
More informationANALYTICAL REPORT. Job Number: Job Description: Transform Complete
ANALYTICAL REPORT Job Number: 640-4848-1 Job Description: Transform Complete For: American Master*Tech Scientific, Inc. 1330 Thurman Street PO BOX 2539 Lodi, CA 95240 Attention: Mr. Adam Kowalczyk Chad
More informationJanuary 19, Dear Mr. Nightingale:
January 19, 2011 Mr. Steven F. Nightingale, P.E. Manager, Permit Section Illinois Environmental Protection Agency Bureau of Land 1021 North Grand Avenue East Springfield, Illinois 62794 Subject: Supplemental
More informationAnalysis of Low Level Volatile Organic Compounds in Air Anne Jurek
JSB is an authorised partner of Analysis of Low Level Volatile Organic s in Air Anne Jurek #111 Introduction The New Jersey Department of Environmental Protection (NJDEP) developed a new low level TO-15
More informationMaximizing Sample Throughput In Purge And Trap Analysis
Maximizing Sample Throughput In Purge And Trap Analysis LINDSEY PYRON ANNE JUREK INTRODUCTION There are several demands and requirements imposed on chemists performing volatile organic analysis (VOC) in
More informationAUTONOMOUS, REAL TIME DETECTION OF 58 VOCS IN THE PANAMA CANAL
AUTONOMOUS, REAL TIME DETECTION OF 58 VOCS IN THE PANAMA CANAL Challenges of Water Monitoring Volatile Organic Compounds (VOCs) can have negative health impacts even at ppb levels VOC concentrations can
More informationA Single Calibration for Waters and Soil Samples Performing EPA Method Anne Jurek Applications Chemist
A Single Calibration for Waters and Soil Samples Performing EPA Method 8260 Anne Jurek Applications Chemist Abstract A Single Calibration Method for Water AND Soil Samples The United States Environmental
More informationUS EPA Method 8260 with the Tekmar Atomx XYZ P&T System and Agilent 7890B GC/5977A MS
Application Note US EPA Method 8260 with the Tekmar Atomx XYZ P&T System and Agilent 7890B GC/5977A MS Author Amy Nutter Applications Chemist, Teledyne Tekmar Abstract US EPA Method 8260 in conjunction
More informationRoger Bardsley, Applications Chemist; Teledyne Tekmar Page 1
Application Note US EPA Method 524.2 with the Teledyne Tekmar Lumin P&T Concentrator and Agilent 7890B GC / 5977A MS Roger Bardsley, Applications Chemist; Teledyne Tekmar Page 1 Abstract US EPA Method
More informationCALA Directory of Laboratories
CALA Directory of Laboratories Membership Number: 2628 Laboratory Name: Caduceon Environmental Laboratories (Richmond Hill) Parent Institution: Caduceon Enterprises Inc. Address: 110 West Beavercreek Rd.
More informationValidation of USEPA Method Using a Stratum PTC, AQUATek 100 Autosampler, and Perkin-Elmer Clarus 600 GC/MS
Validation of USEPA Method 524.2 Using a Stratum PTC, AQUATek 100 Autosampler, and Perkin-Elmer Clarus 600 GC/MS Application Note By: Nathan Valentine Abstract The US EPA developed Method 524.2¹, Measurement
More informationU.S. EPA VOLATILE ORGANICS METHOD USING PURGE AND TRAP GC/MS
ENVIRONMENTAL application note U.S. EPA VOLATILE ORGANICS METHOD 524.2 USING PURGE AND TRAP GC/MS Cheri Coody, Public Health Laboratory, Mississippi State Health Department, Jackson, MS USA Michael J.
More informationDetection of Volatile Organic Compounds in polluted air by an Agilent mini Thermal Desorber and an Agilent 5975T LTM GC/MS
Detection of Volatile Organic Compounds in polluted air by an Agilent mini Thermal Desorber and an Agilent 5975T LTM GC/MS Application Note Environmental Author Xiaohua Li Agilent Technologies (Shanghai)
More informationNational Pollutant Discharge Elimination System (NPDES); BADCT Limits for Volatile Organic Compounds
Permit Guidance 12 Final National Pollutant Discharge Elimination System (NPDES); BADCT Limits for Volatile Organic Compounds Statutory references: ORC 6111.01, 6111.03, 6111.04 Rule references: OAC 3745-1-05,
More informationOREGON Environmental Laboratory Accreditation Program ORELAP Fields of Accreditation ALS Environmental - Simi Valley
MATRIX Reference Code Analyte Code Description ASTM C471M- 14 2014 ASTM D5504-12 2012 3964 Orthorhombic Cyclooctasulfur 4842 1-Propanethiol 6113 2,5-Dimethylthiophene 4544 2-Ethylthiophene 4843 2-Propanethiol
More informationRoger Bardsley, Applications Chemist; Teledyne Tekmar P a g e 1
Application Note US EPA Method 524.4 with the Tekmar Lumin P & T Concentrator and Thermo Scientific TRACE 1310 GC and ISQ LT MS System Roger Bardsley, Applications Chemist; Teledyne Tekmar P a g e 1 Abstract
More informationRapid Determination of TO-15 Volatile Organic Compounds (VOCs) in Air
Environmental Applications Rapid Determination of TO-15 Volatile Organic Compounds (VOCs) in Air By Jason S. Herrington Abstract The following study evaluated the efficacy of using Nutech s 8900DS preconcentrator
More informationValidation of Volatile Organic Compound by USEPA. Method 8260C. Application Note. Abstract. Introduction. Experimental-Instrument Conditions
Validation of Volatile Organic Compound by USEPA Method 8260C Application Note Abstract In order to determine the concentration of volatile organic compounds (VOCs) in water and soil matrices the USEPA
More informationSystem and JUREK ANNE. Introduction: in an in purge and. trap sampling. Discussion: As part of. consistent and reliable data. (MoRT) to.
ANNE JUREK Optimal Conditions for USEPA Method 8260B Analysis Using the EST Analyticall Sampling System and the Shimadzu GCMS-QP2010s Introduction: The USEPA developedd Method 8260B for the determination
More informationOptimal VOC Method Parameters for the StratUm PTC Purge & Trap Concentrator
Optimal VOC Method Parameters for the StratUm PTC Purge & Trap Concentrator Application Note Introduction Environmental laboratories have utilized the Purge & Trap sample concentration technique for over
More informationThermal Desorption Technical Support
Thermal Desorption Technical Support Note 86a: US EPA Method TO-17 for Monitoring Air Toxics in Ambient Air Using Sorbent Tubes and Automated, Cryogen-free Thermal Desorption Application Note Environmental,
More informationTexas Commission on Environmental Quality INTEROFFICE MEMORANDUM
Texas Commission on Environmental Quality INTEROFFICE MEMORANDUM To: Lorinda Gardner, Director, R15 Date: Carlos Rubinstein, Texas Border Area Director From: Valerie E. Meyers, Ph.D. Toxicology Section,
More informationSTANDARD OPERATING PROCEDURES
PAGE: 1 of 14 CONTENTS 1.0 SCOPE AND APPLICATION 2.0 METHOD SUMMARY 3.0 SAMPLE PRESERVATION, CONTAINERS, HANDLING AND STORAGE 4.0 INTERFERENCES AND POTENTIAL PROBLEMS 5.0 EQUIPMENT/APPARATUS 6.0 REAGENTS
More informationValidation of Environmental Water Methods on One System: Considerations for Sample Volume, Purge Parameters and Quality Control Parameters
Validation of Environmental Water Methods on One System: Considerations for Sample Volume, Purge Parameters and Quality Control Parameters Application Note Abstract Water quality laboratories across the
More informationMethanol Extraction of high level soil samples by USEPA Method 8260C
Methanol Extraction of high level soil samples by USEPA Method 8260C Abstract In order to determine the concentration of Volatile Organic Compounds (VOCs) in soil and waste samples the USEPA developed
More informationOptimizing. Abstract: is standardd. procedures. altered to
Optimizing Standard Preparation ANNE JUREK Abstract: Standardd preparation can often be a time consuming, tedious process. The opportunity for human error or inconsistencies between individual preparation
More informationNIST gas standards containing volatile organic compounds in support of ambient air pollution measurements
Air Pollution XVI 357 NIST gas standards containing volatile organic compounds in support of ambient air pollution measurements G. C. Rhoderick Analytical Chemistry Division, Chemical Science and Technology
More informationSolid Phase Micro Extraction of Flavor Compounds in Beer
Solid Phase Micro Extraction of Flavor s in Beer ANNE JUREK USEPA 524.2 Method Validation Using the Evolution Purge and Trap Concentrator and the Centurion WS Autosampler Application Note Environmental
More informationLIST OF METHODS IN THE SECOND EDITION OF THE COMPENDIUM OF METHODS FOR THE DETERMINATION OF TOXIC ORGANIC COMPOUNDS IN AMBIENT AIR
VIII. Air Analysis Method Descriptions and Applicability LIST OF METHODS IN THE SECOND EDITION OF THE COMPENDIUM OF METHODS FOR THE DETERMINATION OF TOXIC ORGANIC COMPOUNDS IN AMBIENT AIR Compendium Method
More informationUsing Hydrogen as An Alternative Carrier Gas for US EPA 8260
Using Hydrogen as An Alternative Carrier Gas for US EPA 8260 Application Note Abstract Due to regional shortages and increasing costs of helium, the preferred carrier gas in gas chromatography, alternative
More informationAnalysis. Introduction: necessary. presented. Discussion: As part of be carried. consistent and reliable data. (MoRT) to.
Optimal Conditions for USEPA Method 8260 Analysis Anne Jurek Introduction: Over the past decade, the need for environmental laboratoriess using purge and trap systems to report at or below the Method Detection
More informationUS EPA Method with the Tekmar Lumin P&T Concentrator, AQUATek LVA and Agilent 7890B GC/5977A MS
APPLICATION NOTE: TECHNOLOGY: INDUSTRY: AN1806 P+T VOC ENV US EPA Method 524.2 with the Tekmar Lumin P&T Concentrator, AQUATek LVA and Agilent 7890B GC/5977A MS Amy Nutter, Applications Chemist; Teledyne
More informationAnalysis of Volatile Organic Compounds in Soil Samples by EPA Method 8260 with The Stratum PTC and SOLATek 72 Multi-Matrix Autosampler
Analysis of Volatile Organic Compounds in Soil Samples by EPA Method 8260 with The Stratum PTC and SOLATek 72 Multi-Matrix Autosampler Application Note By: Teri Dattilio Introduction Purge and Trap concentration
More informationMcCAMPBELL ANALYTICAL INC Willow Pass Road Pittsburg CA
Comparison of VOC : s, Target Lists, MAI Acenaphthene 83-32-9 Acetalaldehyde (Ethanal) 75-07-0 Acetone 67-64-1 Acetonitrile 75-05-8 Acetophenone 96-86-2 Acrolein (Propenal) 107-02-8 Acrylamide 79-06-1
More informationPerformance of a Next Generation Vial Autosampler for the Analysis of VOCs in Water Matrices
Application Note Performance of a Next Generation Vial Autosampler for the Analysis of VOCs in Water Matrices Abstract By: Ed Price In today s laboratories, increased efficiency and productivity are of
More informationKSA Environmental Laboratory Inc.
February 26, 07 KSA Environmental Laboratory Inc. Hydrologic Associates - Miami Attn: Brad Waller 8925 S.W. 148th Street Suite 212 Miami, FL 33176 RE: Parkland KSA Workorder: Q0012 Dear Brad Waller, Enclosed
More informationCIA Advantage-xr. Cryogen-free automated canister and whole-air sampling system
CIA Advantage-xr Cryogen-free automated canister and whole-air sampling system CIA Advantage-xr Introducing the CIA Advantage-xr a cryogen-free system for the automated GC and GC MS analysis of trace-level
More informationDate: March 6, 2008 RWDI Reference #: W B Pages (Including Cover):
RWDI AIR Inc. 650 W oodlawn R oa d W est, Guelph, Ontari o, Ca nad a N1K 1B8 Tel: (51 9) 823-1 31 1 E-mail: info@rwdi.com Fax: (51 9) 823-1 31 6 W eb: www. r wdi.com Date: March 6, 2008 RWDI Reference
More informationJ. Li et al. Correspondence to: S. D. Xie
Supplement of Atmos. Chem. Phys., 15, 7945 7959, 2015 http://www.atmos-chem-phys.net/15/7945/2015/ doi:10.5194/acp-15-7945-2015-supplement Author(s) 2015. CC Attribution 3.0 License. Supplement of Characterization
More informationCopies: Dave Favero, RACER File
MEMO To: Nate Nemani USEPA Region 5 77 West Jackson Boulevard Mail Code: LU-9J Chicago, Illinois 60604-3507 Copies: Dave Favero, RACER File Arcadis of Michigan, LLC 300 S. Washington Square Suite 315 Lansing
More informationMeeting NJ Low Level TO-15 Air Testing Method Requirements
Meeting NJ Low Level TO-15 Air Testing Method Requirements By Jason S. Herrington, PhD Abstract The following study evaluated the efficacy of pairing a Markes Unity with CIA Advantage preconcentrator with
More informationLIMITED AMBIENT AIR QUALITY EVALUATION. Town of Flower Mound August 2011 Nine Monitoring Sites Flower Mound, Denton County, Texas
LIMITED AMBIENT AIR QUALITY EVALUATION Town of Flower Mound August 2011 Nine Monitoring Sites Flower Mound, Denton County, Texas Project 115069 October 4, 2011 A Report Prepared for: Town of Flower Mound
More informationOptimizing of Volatile Organic Compound Determination by Static Headspace Sampling
JSB is an authorised partner of Optimizing of Volatile Organic Compound Determination by Static Headspace Sampling Anne Jurek Introduction: #134 Static headspace sampling has always been a viable option
More informationSTONY HOLLOW LANDFILL, INC S. Gettysburg Ave. Dayton, OH (937) (937) Fax
STONY HOLLOW LANDFILL, INC. 2460 S. Gettysburg Ave. Dayton, OH 45418 (937) 268 1133 (937) 267 5110 Fax May 1, 2018 Ms. Jennifer Marsee Unit Supervisor Regional Air Pollution Control Agency 117 South Main
More informationA Single Calibration Method for Water AND Soil Samples Performing EPA Method 8260
JSB is an authorised partner of A Single Calibration Method for Water AND Soil Samples Performing EPA Method 8260 Anne Jurek #101 Introduction: The United States Environmental Protection Agency (USEPA)
More informationAnalysis of Volatile Organic Compounds in Water and Soil by EPA Method 8260 with the Atomx Concentrator/Multimatrix Autosampler
Analysis of Volatile Organic Compounds in Water and Soil by EPA Method 8260 with the Atomx Concentrator/Multimatrix Autosampler Application Note By: Anne Jurek Abstract In order to determine the amount
More informationOptimal Conditions for USEPA Method 8260B Analysis using the EST Analytical Sampling system and the Shimadzu GCMS-QP2010s
JSB is an authorised partner of Optimal Conditions for USEPA Method 8260B Analysis using the EST Analytical Sampling system and the Shimadzu GCMS-QP2010s Anne Jurek #120 Introduction: The USEPA developed
More informationValidation of USEPA Method 8260C Using Teledyne Tekmar Atomx, and Perkin-Elmer Clarus 600 GC/MS
Validation of USEPA Method 8260C Using Teledyne Tekmar Atomx, and Perkin-Elmer Clarus 600 GC/MS Application Note By Tyler Trent Abstract In order to determine the concentration of volatile organic compounds
More informationNJDEP TETERBORO AIRPORT AIR QUALITY STUDY
NJDEP TETERBORO AIRPORT AIR QUALITY STUDY Alan Kao, Principal ENVIRON International Corporation Groton, Massachusetts Final Project Presentation February 11, 2008 Background OUTLINE Recap of monitoring
More informationAIR QUALITY SURVEY OF SYNTHETIC TURF FIELDS CONTAINING CRUMB RUBBER INFILL
AIR QUALITY SURVEY OF SYNTHETIC TURF FIELDS CONTAINING CRUMB RUBBER INFILL Prepared for New York City Department of Health and Mental Hygiene New York, NY Prepared by TRC Windsor, Connecticut March 2009
More informationSite Specific Conditional Sampler Garfield County, Colorado. VOC Data Summaries. Prepared for
Site Specific Conditional Sampler Garfield County, Colorado VOC Data Summaries Prepared for Garfield County Public Health 195 West 14 th Street Rifle, Colorado 81650 Prepared by 1901 Sharp Point Dr., Suite
More informationMaximizing Production While Minimizing Costs
JSB is an authorised partner of Maximizing Production While Minimizing Costs Anne Jurek #123 Abstract: The need to increase productivity and reduce cost is becoming of greater concern to environmental
More informationA Comparison of Volatile Organic Compound Response When Using Nitrogen as a Purge Gas
A Comparison of Volatile Organic Compound When Using Nitrogen as a Gas Application Note By: Anne Jurek Abstract For many years Helium has been the gas of choice for purging Volatile Organic Compounds (VOCs).
More information2017 EPA Method Update Rule and EPA Method 624.1
Introduction Method 624 is for the determination of volatile organic compounds in industrial discharges and other liquid environmental samples by gas chromatography combined with mass spectrometry (GC/MS).
More informationDate Issued: April 01, 2013 Expiration Date: June 30, 2013
State of Florida Department of Health~Bureau of Public Health Laboratories I his is to certify that ALS ENVIRONMENTAL - SIMI VALLEY 2655 PARK CENTER DRIVE, SUITE A SIMI VALLEY, CA 93065 has complied with
More informationExploring US EPA Method 524 Purge and Trap Variables: Water Vapor Reduction and Minimizing Cycle Time
Exploring US EPA Method 524 Purge and Trap Variables: Water Vapor Reduction and Minimizing Cycle Time Roger Bardsley, Applications Chemist; Teledyne Tekmar Page 1 Introduction Purge and Trap (P&T) concentrators
More informationF 2: Phase 2 Soil Vapor Investigation for Potential Off Site Vapor Intrusion
F 2: Phase 2 Soil Vapor Investigation for Potential Off Site Vapor Intrusion October 31, 2014 Mr. Bob Linder Essex Property Trust, Inc. 5141 California Avenue, #250 Irvine, California 92617 Subject: Phase
More informationCALA Directory of Laboratories
CALA Directory of Laboratories Membership Number: 2460 Laboratory Name: ROPEC Laboratory Parent Institution: City of Ottawa, Laboratory Services Address: 800 Greens Creek Dr, Ottawa ON K1J 1A6 Contact:
More informationValidation of USEPA Method Using a Stratum PTC and the New AQUATek 100 Autosampler
Validation of USEPA Method 524.2 Using a Stratum PTC and the New AQUATek 100 Autosampler Application Note Abstract Automation is the key to increasing laboratory productivity and minimizing costs. It is
More informationBuilding 280A and Building 450 Soil Sampling Results Richmond Field Station Site Berkeley Global Campus at Richmond Bay, Richmond, California
TETRA TECH, INC. February 5, 2016 Lynn Nakashima Berkeley Regional Office 700 Heinz Avenue, Suite 200C Berkeley, California 94710 Subject: Building 280A and Building 450 Soil Sampling Results Richmond
More informationAMBIENT AIR MONITORING PROGRAM MUGGAH CREEK REMEDIATION PROJECT JANUARY 2003 SAMPLING EVENTS FINAL REPORT
AMBIENT AIR MONITORING PROGRAM MUGGAH CREEK REMEDIATION PROJECT JANUARY 2003 SAMPLING EVENTS FINAL REPORT AMBIENT AIR MONITORING PROGRAM MUGGAH CREEK REMEDIATION PROJECT JANUARY 2003 SAMPLING EVENTS FINAL
More informationOptimization of 1,4-Dioxane and Ethanol Detection Using USEPA Method 8260 Application Note
Solid Phase Micro Extraction of Flavor Compounds in Beer ANNE JUREK Optimization of 1,4-Dioxane and Ethanol Detection Using USEPA Method 8260 Application Note Environmental Author Anne Jurek Applications
More informationMethod 8260C by Purge and Trap Gas Chromatography Mass Spectrometry using the Clarus SQ 8
application Note Gas Chromatography/ Mass Spectrometry Authors Ruben Garnica Dawn May PerkinElmer, Inc. Shelton, CT USA Method by Purge and Trap Gas Chromatography Mass Spectrometry using the Clarus SQ
More informationSolid Phase Microextraction of Cyanogen Chloride and Other Volatile Organic Compounds in Drinking Water with Fast Analysis by GC-TOFMS
Solid Phase Microextraction of Cyanogen Chloride and Other Volatile Organic Compounds in Drinking Water with Fast Analysis by GC-TOFMS LECO Corporation; Saint Joseph, Michigan USA Key Words: GC-TOFMS,
More informationANALYTICAL REPORT. Results relate only to the items tested and the sample(s) as received by the laboratory. Page 1 of 5
ANALYTICAL REPORT TestAmerica Laboratories, Inc. TestAmerica Savannah 5102 LaRoche Avenue Savannah, GA 31404 Tel: (912)354-7858 Client For: Imperial Paints LLC PO BOX 489 Fairforest, South Carolina 29336
More informationChemical Solvents 1010 Dennison Road Cleveland, OH 44109 Chris Rander Client Project: S12054050614/2106050914 EA Group Workorder Number: 140500165 Received on May 9, 2014 The following analytical report
More informationApplication News AD Quantitative Determination of Volatile Organic Compounds in Drinking Water by EPA Method with Headspace Trap GC-MS
HS-20 & GCMS-QP2010Ultra Quantitative Determination of Volatile Organic Compounds in Drinking Water by EPA Method with Headspace Trap GC-MS Introduction Volatile Organic Compounds (VOCs) refer to a group
More information2015 Annual Vapor Intrusion Study Solvent Dock Area Former Lockheed Martin French Road Facility Utica, New York
2015 Annual Vapor Intrusion Study Solvent Dock Area Former Lockheed Martin French Road Facility Utica, New York Prepared for: Lockheed Martin Corporation Energy, Environment, Safety and Health 6801 Rockledge
More informationMonthly Report: Chevron Richmond Community Air Monitoring Program. Report Number: RCAMP_MO_11 Date: February RCAMP_MO_11 Page 1 of 26
Monthly Report: Chevron Richmond Community Air Monitoring Program Report Number: RCAMP_MO_11 Date: February 2014 RCAMP_MO_11 Page 1 of 26 Table of Contents Table of Contents... 2 Executive Summary... 4
More informationEnhanced Preconcentrator for the Analysis of Vapor Phase Volatile Organic Compounds
INSTRUMENTS IN. Enhanced Preconcentrator for the Analysis of Vapor Phase Volatile Organic ompounds Application Note 00 Preconcentrator G/MS Analysis Authors Thomas X. Robinson, Daniel B. ardin, Entech
More informationReadiness thru Health
DEPARTMENT OF THE ARMY US ARMY CENTER FOR HEALTH PROMOTION AND PREVENTIVE MEDICINE 5158 BLACKHAWK ROAD ABERDEEN PROVING GROUND MD 21010-5403 MCHB-TS-RDE - MEMORANDUM FOR Command Surgeon (LTC (b) (6) ),
More informationEd George and Anaïs Viven Varian, Inc.
Application Note SI-02408 Evaluation of EPA Method 524.3: a New Draft Method for the Analysis of VOCs in Drinking Water using GC/MS and V:Results GC/MS Software Ed George and Anaïs Viven Varian, Inc. Introduction
More informationMonthly Report: Chevron Richmond Community Air Monitoring Program. Report Number: RCAMP_MO_5 Date: August RCAMP_MO_5 Page 1 of 26
Monthly Report: Chevron Richmond Community Air Monitoring Program Report Number: RCAMP_MO_5 Date: August 2013 RCAMP_MO_5 Page 1 of 26 Table of Contents Table of Contents... 2 Executive Summary... 4 1 Report
More informationAmec Foster Wheeler Environment & Infrastructure, Inc BIG SHANTY ROAD, NW, SUITE 100 KENNESAW, GEORGIA (770)
Dutch Valley Rd NE Worchester Dr NE Hillpine Dr NE Maddox Dr NE Lee St SW Maddox Dr NE Avery Dr NE E Park Ln NE Piedmont Ave NE Yorkshire Rd NE ³ Park Ln NE Westminster Dr NE Piedmont Way NE Westminster
More informationUNIFORMED SERVICES UNIVERSITY OF THE HEALTH SCIENCES 4301 JONES BRIDGE ROAD BETHESDA, MARYLAND JUNE 2004 APPROVAL SHEET
UNIFORMED SERVICES UNIVERSITY OF THE HEALTH SCIENCES 4301 JONES BRIDGE ROAD BETHESDA, MARYLAND 20814-4799 9 JUNE 2004 APPROVAL SHEET Title of Thesis: HAPSITE Gas Chromatograph/Mass Spectrometer (GC/MS)
More informationOptimizing Standard Preparation
JSB is an authorised partner of Optimizing Standard Preparation Anne Jurek #106 Abstract: Standard preparation can often be a time consuming, tedious process. The opportunity for human error or inconsistencies
More informationCASE STUDY : airmozone : 88 VOC from PAMS and TO14 Ozone precursors by FID from WATER or AIR 0 / 325 µg/m 3 or higher
CASE STUDY : VOC analysis in ambient air by FID dectection - Complete system airmozone Page 1 of 13 E X P E R T S I N G A S A N A L Y S I S CASE STUDY : airmozone : 88 VOC from PAMS and TO14 Ozone precursors
More informationLaboratory Report Number(s) Lone Tree Road (Deep) 10/5/15, 10/19/15, 6/13/16. Address Sample Date(s) Analyses Requested
July 14, 216 Mr. Shaun Lehman MDEQ-OOGM Lansing District Office Constitution Hall 2 South 525 West Allegan Street Lansing, MI 48913 Re: Residential Well Sampling Hartland 36 Gas Plant SE/NE/NW Section
More informationINDOOR AIR QUALITY ASSESSMENT
Prepared for Boulder Valley School District 6500 E. Arapahoe Avenue Boulder, Colorado 80303 Prepared by Ramboll Environ US Corporation Date June, 207 Project Number 24309A IOOR AIR QUALITY ASSESSMENT BOULDER
More informationPhilippine Regulations on Chemicals The Global Summit on Chemical Safety and Security April 2016, Kielce, Poland
Philippine Regulations on Chemicals The Global Summit on Chemical Safety and Security 18-20 April 2016, Kielce, Poland Health ENGR. JEAN C. BORROMEO Supervising Environmental Management Specialist DENR
More informationAnalytical Trap Comparison for USEPA Method 8260C
Analytical Trap Comparison for USEPA Method 8260C Application Note Abstract Purge and trap concentration is a technique that is used for the analysis of Volatile Organic Compounds (VOCs). The major component
More informationMETHOD 5021 VOLATILE ORGANIC COMPOUNDS IN SOILS AND OTHER SOLID MATRICES USING EQUILIBRIUM HEADSPACE ANALYSIS
METHOD 5021 VOLATILE ORGANIC COMPOUNDS IN SOILS AND OTHER SOLID MATRICES USING EQUILIBRIUM HEADSPACE ANALYSIS 1.0 SCOPE AND APPLICATION 1.1 Method 5021 is a general purpose method for the preparation of
More informationSolid Phase Micro Extraction of Flavor Compounds in Beer
Solid Phase Micro Extraction of Flavor Compounds in Beer ANNE JUREK Automed Sampling of Methanol Extractions Applicion Note Environmental Author Anne Jurek Applicions Chemist EST Analytical Cincinni, OH
More informationANALYTICAL RESULTS. Project: Mayflower, AR Pipeline Incident
ANALYTICAL RESULTS Prepared by: Eurofins Lancaster Laboratories Environmental 2425 New Holland Pike Lancaster, PA 760 Prepared for: Mobil Pipeline Company PO Box 446 Houston TX 7720-446 July 30, 203 Project:
More informationJANUARY THROUGH JUNE 2011 DUAL PHASE EXTRACTION SYSTEM OPERATION MAINTENANCE AND MONITORING REPORT #5 EMERSON POWER TRANSMISSION ITHACA, NEW YORK
JANUARY THROUGH JUNE 2011 DUAL PHASE EXTRACTION SYSTEM OPERATION MAINTENANCE AND MONITORING REPORT #5 EMERSON POWER TRANSMISSION ITHACA, NEW YORK SITE NO. 7-55-010 January 25, 2012 DRAFT WSP Engineering
More informationMeasuring Environmental Volatile Organic Compounds by U.S. EPA Method 8260B with Headspace Trap GC/MS
application Note Gas Chromatography Author Heidi Grecsek PerkinElmer, Inc. Shelton, CT 06484 USA Measuring Environmental Volatile Organic Compounds by U.S. EPA Method 8260B with Headspace Trap GC/MS Introduction
More information